Cocoa genome to help speed production

June 7th, 2013

A paper published in Genome Biology has revealed the freshly sequenced genome of the most commonly cultivated cacao plant in the world. Researchers have utilised high quality DNA sequences to demonstrate the usefulness and quality of the sequence to identify genetic markers that can lead to higher yielding cocoa plants that still produce better tasting cocoa.

There are many varieties of the cacao tree (Theobroma cacao L), but the green podded Costa Rican Matina or Amelonado variety is the most popular because of its high yield and pleasant flavour. In Ecuador, a red podded high yielding variety, CCN 51, is blended with a green podded, better tasting but lower yielding variety. But the adulteration reduces the overall quality of the chocolate, so cacao growers are keen to improve the quality of cacao beans exported from Ecuador.

Researchers from Mars sequenced the genome of the Matina cacao variety, then used genetic analyses and comparisons with other varieties, to highlight a gene involved in pod colour variation. Zooming further in on the gene sequence, they then identified a single DNA letter change that affected levels of the gene’s expression, and so the colour of the pod.

Cacao plant breeders trying to produce a delicious high-yield strain through cross breeding have met with limited success. So the genetic marker could, in theory, be used to screen young seedlings, and highlight desirable plants long before they reach maturity. This would avoid the expense and labour of growing up potential duds, ultimately improving the quality of cacao plants and the chocolate made from them.

Although the genome sequence of the Criollo cacao variety was reported two years ago, it’s genetically quite distinct and so a poor representative of the cacao types cultivated worldwide.

Since the publication of the genome sequence, researchers have been working to identify genetic markers that can produce more productive cocoa plants for farmers while still providing consumers with high quality and superior taste. The genome sequence research is a part of an overall effort to use traditional breeding techniques to develop planting materials that farmers can use to be more productive.